DE2023683B2 - VEHICLE WITH MAGNETIC FLOOR ADHESION - Google Patents

Description

The invention relates to a vehicle with magnetic traction that is remotely driven electrically or pneumatically. one Vehicle frame, two endless drive belts, magnets that drive the vehicle on one Holding the surface magnetically, and with a motor system that drives the endless drive belts.

Daf. Vehicle should be on a vertical or inclined wall surface of an object to be driven on made of magnetic material, e.g. B. Iron and steel adhere and be suitable above the surface for various work processes, such as B. Painting. Inspection of welds, etc., movements perform, with various devices mounted on the vehicle for such purposes. So far it has been necessary to build a platform for workers, e.g. B. Combined wooden beams or beams or otherwise hang a gondola or crib over it when painting or inspections to be carried out on ships or large buildings. So had the workers on such a platform or in such a gondola in a considerable amount

ίο Carry out manual work at a height. For this Basically, the operation was dangerous, and in addition, the efficiency of the work was extremely high low.

In order to eliminate the above disadvantages, magnetically adhering vehicles have become known (U.S. Patents 2,132,661 and 2,895,429). However the previously known vehicles are not satisfactory because there are z. B. when moving the vehicle over a surface with a certain curvature instead of a smooth surface of one to be driven on The object was not able to apply sufficient adhesive force to hold its weight, and as the device also sometimes causes damage to the work surface due to the Contact pressure exerted between the vehicle and the work surface. So there was so far no satisfactory magnetically adhering vehicle for practical. Use.

The known vehicles adhere to a work surface by means of permanent magnets attached to it and / or electromagnets and are driven by drive or magnetic belts on both sides of the vehicle are arranged and driven by electric motors. A change of direction the movement of the vehicle of this type is achieved by driving the belt on one side only of the vehicle while the other belt stopped on the opposite side odT are driven backwards, as a result of which the vehicle is deflected in a certain turning radius will. However, if the vehicle is held on an almost vertical wall surface, then it has during its rotation due to the change in contact pressure between the vehicle and the wall surface the tendency to: * slide n the contact surface of either the right or left straps. Accordingly, considerable skill is required to get the vehicle exactly into the desired position To divert direction. A relatively large turning radius and a long line are required to complete the change in direction of the vehicle.

The invention is therefore based on the object of creating a vehicle with magnetic traction, in which the disadvantages mentioned are avoided as far as possible, in which in particular the adhesive force between the vehicle and the work surface can be adjusted to always one for the weight of the vehicle to achieve sufficient adhesive force, and in addition, the endless drive belt so are designed so that the surfaces of the objects to be processed are not damaged. aside from that the vehicle should be designed according to the invention so that the direction of travel can be easily adjusted and lets change.

Based on a vehicle of the type mentioned at the outset, this object is achieved according to the invention solved that the magnets each have a laterally arranged magnetic device around which the endless drive

3 4

belts are led around, and one in the center of the roller system 14, 14 'for guiding the vehicle

Vehicle arranged magnetic device include, wherein is on both sides in Seitcnrahmenteil 12. 1- in rc ι

the arranged in the center of the vehicle pairs and includes the l-guide rollers -.

fneiaerät a device for automatic setting 5 '. Bearing blocks 20, 20 'for the guide rollers. Snow

its vertical movement has a constant 5 ben 21. 2Γ for hanging the bearing blocks 20 20 to

Adhesive force between the vehicle and the side frame parts to be driven on 12. 12 ', spiral springs 23. - -

causes the surface. between the side frame parts 12. 12 and the

General examples of the invention are provided on bearing blocks 20, 20 'and around the screws

Hand of the drawing explained in more detail: it shows 21, 21 'are arranged around, and nuts - .-- ·

Fig. 1 is a plan view to explain an execution io In the center of the vehicle is a further measure

riinusbeispiels arranged according to the invention trained device 24, which consists of an upper channel

I.! Hrzeuas, "" menteii 25. a worm 26. a worm wheel _ /.

Fi «. ~ 2 shows a side view of the vehicle after a cover 28 for these parts, a cylindrical one

I j a Λ rod 30 including a spindle 29 and one

F sharp. 3 is an enlarged sectional view of FIG. 15 welded to the lower end of the rod 30. FIG

L: nic ^ lII-lll in Fig. 1, electromagnet 31, the vertical movement

4 shows a longitudinal sectional view along the line gune by rotating the worm wheel 27

I-. . -IV in Figure 1 for explaining the seitlieh ansie- within a yoke 34 is au ^r, INEM core 33 is a

o: -, liu-ien magnetic device in detail. " Coil 32 mounted. For lowering u '" d lifting is a

I .-. 5 a plan view to explain a further 20 motor 35 is provided, which via a coupling 36 with /, i-Jührungsbeispiels for a according to the invention of the screw 26 is connected. A limitation a: formed vehicle, "switch 37 is on yoke 34 in cooperation with

fm. 6 is a side view to explain the lowering and lifting motor 35 attached so that the y.-uus "according to FIG. 5 in vertical section and" the distance between the electromagnet 31 and the FIGS to be traversed object 38 of iron or Mani μι "" a 12th the vehicle according to Fig. 5 provided can be kept constant. on the side frame member 12 is S.-uereinrichtung. """inwardly for guiding the electromagnet M a preferred embodiment of the In the following, with reference to the invention, guide rollers 39, 39 'are provided which are described along a groove suitable for FIGS. 1 to 4 of the drawing run vertically in yoke 34. ^ n In the documents it is provided that reference is on the other front side of the vehicle frame /.ifern with a dashed parts on the right side of a holding part 40 made of non-magnetic material to the 1 mgsentrineline of the vehicle designate. Endless drive belts with rollers 6. 6 'are arranged to hold the tensioning rollers 4, 4' and the small deflecting Vfit 1. Γ and 2. 2 '. The tensioning rollers 4 4 are designated with a V-shaped profile, which are mounted around drive rollers 3, 35 thereon in such a way that their axis: leiclit in V tensioning roller ·! 4, 4 ', guide rollers 5.5' and small horizontal level are adjustable. On the frame pulleys 6, 6 'are guided, on the top part 25 to be driven on, a paint nozzle 41 is mounted, the object 38 made of iron or steel rest and the holding parts 7 and 40 on the end faces, which are used to drive the vehicle. These drive side frame parts 12, 12 'and the upper frame part ä belts are driven by the drive rollers 3. B. by screws unu ben The vehicle frame has nuts connected to one end.

ropes a holding part 7 made of non-magnetic material. In the above arrangement, hold the wine

with bearing blocks 8, 8 'for the storage of the drive vehicle on a side wall or bntcrtlache of the

roll up. The drive rollers are in a suitable manner via couplings to be driven on object 38. 10 10 'with drive motors 9, 9' in connection, the 45 attached, for example with the help of a crane, we ^ uas

Magnetic device 13, likewise arranged laterally on the non-magnetic holding part 7, on the uoer-

are strengthened and are independently of one another by surface of the object 38 via ^dl f _n ^A ntriebsnemen. 1

these drive motors 9, 9 'are driven. Furthermore, 1 'and 2, 2', which by the grooves 19, 19 in

the holding part 7 near the bottom still bearing for a pair of surface of the side frame part 12 12 and the lower

dJr small pulleys 6, 6 'on. 50 paragraph piece 18, 18 'are performed. If then

The drive motors 9, 9 'are remotely controlled and the deep-

are to reduce the weight of the vehicle tromagnel 31 by a limit switch ^ / im

either electrical or pneumatic. Sym- connection with that from the motor »«

Metric to the longitudinal axis of the vehicle are wall parts of the coupling 36, the screw 26 and the edge of the screw

II and 11 ', respectively 27 to including 55 of the screw 29 and the rod 30, b ^ tel e "the magnetic devices 13, 13'. Side frame members 12, 12 'is operated from mechanism, and the Fa liable hm Ug Contain non-magnetic material in which the same and is fixed to the side wall or the bottom

Si -γ ^{of kleincn guide rollers 5 5} ' ^^ s ^ r ^ ™ ^^

Se laterally arranged magnetic devices 13, 13 'the object is adhered and held, steers.mar.es means

stand η ewet as a side frame part 12, 12 ', a (not shown) f ""; "^^

a permanent magnet 15, 15 ', an upper paragraph on a (not shown) control and accounting panel

Piece '17 17' and a lower heel piece 18, 18 ', on or away from the object to be driven on

and a guide groove 19, 19 'is provided for opening. If necessary, as driving

would take the drive belts 1, Γ and 2, 2 'on the 6 ₅ stuff to move straight forward <^ ™? ™

upper surface of the side frame part 12. 12 'and on both Antnebsmotoren 9 and 9 m go Ge

the lower surface of the heel piece 18, 18 'swept forward £% ^^% ΤΆί

see.

5 6

rotate and move the drive belt with a V-shaped pro a front edge 120, attached to the other end of the Til 1, Γ and 2, 2 'forward. If it is necessary to change the direction of travel of shaft 119, and a large one fixed to the electromagnet, 101-mounted gear 121 to engage the face is done by driving only one of the two pinions 120. The shaft 119 has a bearing 122 in the frame drive motors 9 and 9 'reached. 5 103 and a guide hole 123 in a support arm

While the vehicle is moving, its 124 will open. Drive belts 125 and 125 ' are passed around the entire weight including various drive wheels 104, 104' and the driven wheels mounted devices through the center point 105, IQV . Magnetic device 24 and / or drive motors 126, 126 ' provided for the vehicle are mounted on a holding frame 127 , and the magnetic devices 13, 13' on the side are carried in the frame. Preferred io 103 is provided. The motors drive the drive mode is the gap between the lower heel piece wheels 104 and 104 ' . Accordingly, the 18, 18 'of the side magnet device 13, 13' and the vehicle can be driven by the rotation of the drive belt 125, surface of the object to be driven on 38 in the 125 ' . A gap 128 is between the order of 1 to 3 mm. Such a gap - the surface 129 of an object made of iron or large size is provided by the guide grooves 19, 19 ' in 15 steel and the adhesive end part 114 ,
In this arrangement according to the invention, the drive belts 1, Γ and 2, 2 'with a V-shaped profile force for adhering the vehicle to the surface is achieved. The spiral springs 23, 23 'of the roller system 14 of the object being driven on by the electric 14' act in accordance with the curvature of the magnet 101 to be driven on and through the object 38 in the side frame 106 , so that the gap between the ao 106 ' inserted permanent magnet parts exercised.
Underside of the heel piece 18, 18 'and the upper If the vehicle along the wall surface 129 surface of the object 38 is constant. is driven, the adhesive end portion 114 of the

In the case of superiors in the center of the vehicle electromagnet 101 previously provided its location in the magnetic device 24 is adjusted to be on the other hand also proposed. Then the vehicle is warped, the gap between the electromagnet 31 35 using suitable means, such as. B. a crane. and to keep the object 38 to be driven on at an optimal value determined in front of the wall surface 129 of the opposite direction to be driven on. Brought to this stand. It can then be by application purpose, electric on the side wall of the solenoid current to the electromagnet 101 and j 31, a plurality limit switch 37 for turning the actuation thereof to the wall surface 129 'motor 35 in forward and reverse directions upstream hold 30th The whole operation of the vehicle is seen through. As a result, the electromagnet 31 is controlled according to suitable control means,
moved up or down. By driving the drive wheels 104 and 104 ' between the electromagnet 31 and the driving object 38 to be operated by means of the drive motors 126, 126' , the moving object 38 is automatically moved straight forward onto an object. If it is necessary to adjust the constant value, although the curvature 35 to change the direction of movement, then the compression of the object 38 can fluctuate along the flow of air through the opening 111 in the cylinder path of the vehicle. The vehicle unit 107 let in so that the electromagnet 101. can be easily removed from the surface of the vehicle which is attached to one end of the rod 110 . remove the article 38 by suitable from an overall cause of the forces acting on the piston 109 pressure device, such. B. a crane is detected. 40 is lowered to the extent that the yoke 34 of the electromagnet 31 is in contact with the opposite end part 114 on the surface 129. When 38 is applied and the electromagnet is further lowered with the electromagnet switched off, then electric current its magnetic force canceled. A the drive belts 126. 126 'finally is then lifted only by the side wall surface 129 of the magnetic force on the large electric ^ magnet unit 13, 13' applied to the object 38th 45 magnet 101 mounted gear 121 is so anonl-

Another preferred embodiment of the net is that it is vertical along the teeth of the spur gear 120

The invention is shown on the basis of FIGS. 5 to 8 of the drawing can slide, with its teeth in those of the spur gear

described below. . intervention. In the present case, the weight of the

In these figures, an electromagnet 101 is provided with the vehicle itself and an associated coil 102 mounted thereon. A middle frame 103 connects 50 devices only through the adhesive force of the electromagnet and holds various parts of the vehicle. 101 held. Thereafter, the control motor 116 enl-We.terhm are drive wheels 104 and 104 , responsive to the desired direction and the level wheels 105 and 105 ' and side frame 106 spur gear 120 rotates by means of Ir cogs 117 and 106' provided. An air-operated cylinder 118 and the shaft 119, when the large gear 121 dereinheit 107 is used for vertical movement of the electrical 55 of the solenoid 101 relative to the wall surface 129 of magnet 101 and comprises an on the frame 103 of the to be traversed article loading due to the Tatfestigten Cylinder 108, a piston 109 for sliding things. that the vehicle is held by the hSe HarvestI movement within the cylinder 108 and one at 114 away from the wall surface 129
can rotate at one end on piston 109 and on the other end, then the stirrup is nn
Electromagnet 101 attached rod 110. Inlet 60 around the circumference of large gear 121
and outlet ports 111 and 112 communicate through the vehicle
with one pipe each for compressed air to change as required
Vertical movement of the piston 109. In a camp, the Fahrypncr tune in.

113, the rod 110 is slid. That paragraph will the DrSu _n ? 3ί Εϊ ™ through ^ sSien piece of the electromagnet 101 has a lower end 65 of the control motor lift hJJ a ^ λ ί · _t · · · a

part 114 on. A control unit 115 includes a control compressor air in S f ν T * -Y- ^ SS ⁸ ,, * "!

motor 116, bevel gears 117 and 118, a shaft 119, the ffiSJm ringel ^{cylinder unit 107 through}

at which the bevel gear 118 is attached at one end, released so that the

is lifted that the adhesive end part 114 dos lilektmmagneten 101 from the underside of the drive belt 125. 125 '/ will be returned / ogcn. Thereupon the anti-irritants 125, 125 come into contact with them again Wandflael'.e 129 brought. So the vehicle is / ur straight forward movement with the aid of the drive motors 126, 126 'ready.

hi a specific embodiment of the magnet vehicle according to the invention, in which

the outer dimensions 850 mm wide. 1050 mm long and 380 mm high. The movement speed is 10 m per minute. the electrical "capacity of the magnet provided in the center is 12 kW direct current.

Ikwegungsgeseliumdigkeii I 5 in now

Spall / wipe adhesive end part and

the Waiido area 5 min

The anücordnele lahr / eug according to the above parameters was moved along a circular path by a S m radius. It was shown that there were doing λ s Ικ-iuitiui to change the direction of movement by 9 (K jrad / u The year / cug could be moved at will over the whole S "^ f ™ ^ hMigung, although in the above exemplary embodiments flexible endless belts according to the invention with V-shaped

J ™ * ° ™ f " ^l _| ^lildincme " f An.nebsm.ttel ve.- , it is of course possible too

^{to be closed}

dS? Ah 34 of the middle

38 eight mm

amount ·., the adhesive force was 16S0 kp. and the vehicle loaded with 50 kg could also be weighed against a vertical wall of component 38, if desired. To use this vehicle with Paintings of ships became a control panel on the deck of a ship. a source of direct current as well as a pump and a compressor for the Paint mounted. A spray nozzle for painting was also mounted on the vehicle. In the above Arrangement, the vehicle was angcordncl on a side wall of a ship with a curve radius of 10 m and operated by a remote control, the was installed on the ship deck. Through this experiment. it was proven that painting With the help of the vehicle, the surface to be painted could be satisfactorily made kcinc was scratched or damaged.

In another specific embodiment of the vehicle according to the invention, the following values were obtained: "

Electrical capacitance of the mean

0.4 kW magnets provided at the point

Drive motor capacity 0.75 kW 2 Steering motor capacity 0.4 kW Load S ' ¹ M *

and Zy.inder _w movement of the

_{man fflr} , _{) änipfunp)> / wct} . _{ke im Ro} f, _{ens> slcm / ur |; fl | l} . any device with a dampening cffect. / to use example using air pressure or oil pressure.

Although in the / broad embodiment the year

stuff with a / wipe the adhesive part and the wall surface was always operated with a constant gap, it is possible by adjusting the gap the adhesive force ic using a gap sensor to use effectively according to the circumstances.

In the vehicle according to the invention it is possible without the platform and other facilities required in conventional arrangements. Hamlet makes it easy to get the vehicle from remove the moving object as the driving stuff sticks to it only through magnetic force. aside from that let; the vehicle can hold itself safely on the surface to be driven on even if the electromagnet is not powered. Furthermore, according to the invention, the vehicle can follow its direction of movement

* More reliable even if the change Work surface is very limited. without this being damaged in any way. It was found that the efficiency when painting is increased about three times and the expenditure in comparison with

conventional methods reduced to about a tenth can be.

For this purpose 2 sheets of drawings

Claims (6)

Patent claims: 1. Vehicle with magnetic traction, which is remotely driven electrically or pneumatically, with a vehicle frame, two endless drive belts, magnets that hold the vehicle magnetically on a surface to be driven on, and with a motor system that drives the endless drive belts, characterized in, that the magnets each have a laterally arranged magnetic device (13, 13 ') around which the endless drive belts (1. Γ, 2. 2') are brought up, and a magnet device arranged in the center of the vehicle (^ 4), which in the Magnetic device arranged in the center of the vehicle has a device for automatic adjustment of its vertical movement a · ^r . which causes a constant half-roll between the vehicle and the surface to be visited (38). 2. Vehicle according to claim 1, characterized in that that the motor system comprises two drive motors (9. 9 ') which vonc.nander independent one of the two endless drive belts (1. Γ; 2. 2 ') for controlling the vehicle drive. 3. Vehicle according to one of claims 1 and 2, characterized in that, to change the direction of travel of the vehicle, the magnet arranged in the center of the vehicle has an electromagnet (101) , n'.it a device for its vertical movement and the a ds. ch a control motor (116) is provided around a spur gear (120) driven by a gear (121) attached to the electromagnet (101) . 4. Vehicle according to one of claims 1 to 3, characterized in that permanent magnets are arranged in the side frame parts (106, 106 '). 5. Vehicle according to one of claims 1 and 2, characterized in that between the magnetic poles the laterally arranged magnetic devices (13, 13 ') roller systems (14, 14') for guiding the Vehicle is provided. 6. Vehicle according to one of claims 1 and 2, characterized in that the laterally arranged Magnet devices (13. 13 ') with grooves (19. 19') for guiding the endless drive belts (1, Γ: 2, 2 ') are provided.